Postgraduate Course: Computational Methods for Global Change Research (INFR11057)
|School||School of Informatics
||College||College of Science and Engineering
|Credit level (Normal year taken)||SCQF Level 11 (Postgraduate)
||Availability||Available to all students
|Summary||The global economy, climate, and biosphere are inextricably linked, complex systems, incorporating physical, biological and social factors. Economic growth affects climate and ecosystems; climate change affects ecosystems and growth prospects; and ecosystems affect climate and provide resources for economic growth. In this course we will look at computational modelling of these complex systems, and prospects for integrated modelling. The focus is mainly on economics and climate - students should take "Environmental Modelling" (Geosciences) for more in-depth study of biosphere modelling.
The course will cover:
1. General survey of modelling in global change research
* Areas: Economics, Ecosystems, Climate
* Methods: optimisation, agent-based, system-dynamics, gridded
2. Computable general equilibrium modelling of economic processes
3. Agent-based modelling
4. System dynamics modelling
5. Gridded modelling of climate processes
6. Integrated models
* GUMBO system dynamics model
* ECCO system dynamics model
Relevant QAA Computing Curriculum Sections: Developing Technologies, Simulation and Modelling
Entry Requirements (not applicable to Visiting Students)
||Co-requisites|| It is RECOMMENDED that students also take
Environmental Modelling (PGGE11032)
||Other requirements|| For Informatics PG and final year MInf students only, or by special permission of the School.
|Additional Costs|| None
Information for Visiting Students
Course Delivery Information
|Not being delivered|
| 1 - Explain with reference to examples what types of problems can be addressed with modelling in global change research
2 - Discuss the commonly used computational methods in global change modelling
3 - economic modelling - computable general equilibrium models, agent-based models, and systems-dynamics models
4 - climate modelling - general circulation models for atmosphere and ocean
5 - ecosystem modelling - system-dynamics and agent-based models
6 - Explain with reference to examples the limitations of the studied modelling techniques.
7 - Critically evaluate research literature in the field.
8 - Design a model or set of models to explore the economic, climate and/or ecosystem effects of a proposed policy.
|Course organiser||Dr Nigel Goddard
Tel: (0131 6)51 3091
|Course secretary||Miss Gillian Bell
Tel: (0131 6)50 2692